Alloy A286 Stainless Steel Chemical Properties, Grades, Charts and Pdf

A286 stainless steel is an alloy with high tensile strength, it is also known for its ability to be corrosion resistant in harsh environments like high temperatures. It has a superior creep resistance and oxidation resistance up to the temperature of 1300°F (704°C). Since the material has constituent elements such as nickel, chromium, and molybdenum, it shows outstanding resistance to the corrosive environment. Generally, the A286 is utilized in aerospace, automotive and machine manufacturing sectors; it comes in multiple grades meant for specific conditions. Charts, tables and PDF files describing its chemical composition, mechanical indicators, and heat treatment requirements are readily available for engineers and suppliers. These resources are useful in material choice, process improvement, and observing the fact that the components should be capable of operating under severe conditions.

Alloy A286 Stainless Steel Chemical Composition And Grade Table

Alloy A286 stainless steel, otherwise called UNS S66286, is a precipitation hardening alloy which has the advantage of its ultrahigh strength and corrosion resistance. The chemical compound consists most commonly of iron, chromium, nickel, titanium, and molybdenum through plus some other elements in small amounts. With a nominal composition of nickel being 25%, the chromium content of 15 –16%, molybdenum of 2 – 3% and titanium of 1.5 – 2.5% it enjoys tremendous mechanical properties up to 1300°F (704°C). A286 is known as the stainless steel class with eloxidation resistance and serviceability in severe conditions, such as in the aerospace, industry, and seawater.

Alloy A286 Stainless Steel
Elements Fe Ni Cr Ti Mo Mn Si V Al C P S B
Min (%) - - - - - - - - - - - - -
Max (%) 54 25.5 14.8 2.13 1.30 1.0 0.50 0.30 0.18 0.040 0.20 0.015 0.0060

Advantages and Disadvantages of Alloy A286 Stainless Steel

    Advantages:

  • High strength at elevated temperatures: It also has very good high-temperature strength and is resistant to oxidation at high temperatures.

  • Good creep resistance: They are capable of sustaining their structural integrity against deformation when subjected to high stresses in the long run.

  • Precipitation hardenable: Heat treatment can be used to enhance mechanical features of the material to improve their performance.

  • Wide range of applications: They are used where performance criteria are of tremendous importance and include aerospace, automotive, and industrial uses.

    Disadvantages:

  • Limited availability: It could also be lesser available when compared to standard types of stainless steel alloys.

  • Cost: In most cases, exotic stainless steel products are slightly more costly in comparison to typical commercial ones.

  • Machinability: It can be difficult to machine due to its great tensile strength and the tendency it has to work harden.

  • Susceptible to embrittlement: It might be prone to embrittlement if the material was not properly heat treated or if exposed to specific conditions.

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